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martonlaszlo-martonbiotec.comDIPLOMÁK

Kiss Ferenc Erdészeti Technikum  Szeged

Szegedi Tudományegyetem, Biológus Diploma, 1973

Szegedi Tudományegyetem, Ph.D. 1976

TMB/MTA Biológiai Tudomanyok Kandidátusa 1990..

 

MUNKAHELYEK, BEOSZTASOK

2004 – Igazgató.  Professional Science Masters Program, Univ. of South Carolina, Columbia, SC

1999 –  Professzor, Department of Biological Sciences, University of South Carolina, Columbia

1990-1999 Associate  Professzor, Dept. of Biological Sciences, University of South Carolina, Columbia

1987-1990 Vendégkutató/Professzor, Institute of Biological Chemistry, Washington State University,

1983-1987 Tudományos csoportvezető Növényélettani Intézet MTA SZBK Szeged,

1980-1981 Vendégkutató/Professzor, Department of Plant Pathology, University of California-Riverside

1977-1978 Vendégkutató, Department of Biochemistry, University of Leiden, Hollandia

1976-1982 Tudományos munkatárs  Növényélettani Intézet, SZBK  Szeged,

1973-1976 MTA Központi Gyakornok SZBK Genetikai Intézet

 

 

TUDOMÁNYOS TEVÉKENYSÉG

Számos extramurálisan támogatott pályázat  témavezetője USDA, USA DoE, SC-HVM, USA EPA,  South Carolina Sea Grant Consortium, South Carolina Hazardous Waste Management Fund, US NIH/NIEHS, Privát biotechnológia cég (White Technology, USA,  and ACF Kft Hungary).

  • Növényi molekuláris Biológia, Növényi sejt- és szövettenyésztés és mikroszaporítás – környezetvédelmi molekuláris biológia.
  • Növényélettani alapkutatás fotoszintézis, légzés es növényvédelem területén
  • Molekuláris biológiai projektek, növénygenetikai modell fajokkal (dohány, Arabidopsis thaliana), és biomassza (Miscanthus giganteus, Miscanthus spp., olasznád – Arundo donax) és más magashozamú fajokkal.
  • Növény transzformáció, mutáns szelekció, molekuláris nemesités.Egyszikű és kétszikű növények in vitro szaporítása molekuláris farming’ és “Pharming” biomassza növényekben
  • Fitoremediáció (szenyvizkezelés, talaj es levegő kármentesités, Nehézfémek, higany, halogézett organikus vegyületek, triklóretán, triklórfenol) ÖKO-Falvak.
  • Agrobacterium biológia
  • Molekuláris biológia, szelektálható gének (pozitiv, negatív), felhasznalasa antitumor terápiara
  • Microszaporitás üzemi szervezése, tervezése.

 

 

TUDOMÁNYOS PUBLIKÁCIÓK

Maliga, P., Marton, L., Sz.‑Breznovits, A.   1973.  5‑bromodeoxyuridine-resistant cell lines of haploid tobacco.  Plant Sci. Lett. 1:  119‑121.

Maliga, P., Sz.‑Breznovits, A., Marton, L.  1973.  Streptomycin resistant plants from callus culture of haploid tobacco.  Nature NB 244:  29‑30.

Maliga, P., Sz.‑Breznovits, A., Marton, L., Joo, F.  1975.  Nonmendelian streptomycin resistant tobacco with altered chloroplasts and mitochondria.  Nature 255: 401‑402.

Marton, L., Maliga, P.  1975.  Control of resistance in tobacco cells to 5‑bromodeoxyuridine by a simple Mendelien factor.  Plant Sci. Lett. 5: 77‑81.

Duda, E., Marton, L., Kiss, G.  1976.  Modifications of the thiobarbituric acid assay of streptomycin.  Biochem. Medicine 15: 330‑332.

Marton, L., Nagy, F., Gupta, K.C., Maliga, P.  1978.  5‑bromodeoxyuridine-resistant tobacco cells incorporating the analogue into DNA.  Plant Sci. Lett. 12: 331‑341.

Marton, L., Wullems, G.J., Molendijk, L., Schilperoort, R.A.  1979.  In vitro transformation of cultured cells from N. tabacum by Agrobacterium tumefaciens.  Nature 277: 129‑131.

Lurquin, P.F., Marton, L.  1980.  DNA transfer experiments with plant protoplasts and bacterial plasmids.  In Advances in Protoplast Research, Proceedings of the 5th International Protoplast Symposium (Ferenczy, L., Farkas, G.L., Eds.), Academic Press and Pergamon Press, pp. 389‑406.

Wullems, G.J., Marton, L., Molendijk, L., Krens, F., Ooms, G., Wurzer‑Figurelli, L.  1980.  Genetic modification of plant cells by transformation and somatic hybridization.  In Advances in Protoplast Research, Proceedings of the 5th International Protoplast Symposium (Ferenczy, L., Farkas, G.L., Eds.), Academic Press and Pergamon Press, pp. 407‑422.

Maliga, P., Menczel, L., Sidorov, V., Marton, L., Cseplo, A., Medgyesy, P., Dung, T.M., Lazar, G., Nagy, F.  1982.  Cell culture mutants and their uses.  In Plant Improvement and Somatic Cell Genetics (Vasil, I.K., Frey, K.J., Scowcroft, W.R., Eds.), Academic Press, New York, pp. 221‑237.

Marton, L., Sidorov, V., Biasini, G., Maliga, P.  1982.  Complementation in somatic hybrids indicates four types of nitrate reductase deficient lines in Nicotiana plumbaginifolia.  Mol. Gen. Genet. 187: 1‑3.

Marton, L., Dung, T.M., Mendel, R.R., Maliga, P.  1982.  Nitrate reductase‑ deficient cell lines from haploid protoplast cultures of Nicotiana plumbaginifolia.  Mol. Gen. Genet. 186: 301‑304.

Marton, L., Duran‑Villa, N., Lin, J.J., Semancik, J.S.  1982.  Properties of cell cultures containing the citrus exocortis viroid.  Virology 122: 229‑238.

Marton, L.  1984.  Transformation of tobacco protoplasts by co‑culture with Agrobacterium.  In Cell Culture and Somatic Cell Genetics of Plants.  (Vasil, I.K., Ed.)  I. Laboratory Procedures and their Applications.  Academic Press, New York, pp. 514‑521.

Cseplo, A., Medgyesy, P., Hideg, E., Demeter, S., Marton, L., Maliga, P.  1985.  Triasine resistant Nicotiana plants from photomixotrophic cell cultures.  Mol. Gen. Genet. 200: 508‑510.

Marton, L., Biasini, G., Maliga, P.  1985.  Co‑segregation of nitrate reductase activity and normal regeneration ability in selfed sibs of Nicotiana plumbaginifolia somatic hybrids heterozygotes for nitrate reductase deficiency.  Theor. Appl. Genet. 70: 340‑344.

Biasini, G., Marton, L.  1985.  A rapid assay for genetic complementation of nitrate reductase deficiency via bulk protoplast fusion.  Mol. Gen. Genet. 198: 353‑355.

Cseplo, a., Medgyesy, P. Marton, L.  1986.  In vitro induction, isolation and transfer of chloroplast mutations in NicotianaIn Nuclear Techniques and In Vitro Cultures for Plant Improvement, LAEA‑SM‑282/60, pp. 137‑146.

Medgyesy, P., Pay, A., Marton, L.  1986.  Transmission of paternal chloroplasts in Nicotiana.   Mol. Gen. Genet. 204: 195‑198.

Mendel, R.R., Marton, L, Muller, A.J.  1986.  Comparative biochemical characterization of mutants a the nitrate reductase/molibdenum co factor loci cnxA, cnxB and cnxC of Nicotiana plumbaginifolia.  Plant Sci. 43: 125‑129.

Czako, M., Marton, L.  1986.  Independent integration and seed transmission of Tr‑DNA of the octopine Ti plasmid pTi Ach5 in Nicotiana.  Plant Mol. Biol. 6: 101‑109.

Purnhauser, L., Dix, P.J., Medgyesy, P., Czako, M., Marton, L.  1987.  Stimulation of shoot regeneration in wheat and Nicotiana tissue cultures using the ethylene inhibitor Ag+.  Plant Cell Reports 6: 1‑4.

Pay, A., Smith, M.A., Nagy, F., Marton, L.  1988.  Sequence of psbA gene from wild type and triazine‑resistant Nicotiana plumbaginifolia.  Nucleic Acid Res. 16:8176‑8179.

Thanh, N.D., Pay, A., Smith, M.A., Medgyesy, P., Marton, L.  1988.  Intertribal chloroplast transfer by protoplast fusion between Nicotiana tabacum and Salpiglossis sinuata.  2ol. Gen. Genet. 213:186‑190.

An, G., Costa, M.A., Mitra, A., Ha, S.B., Marton L.  1988.  Organ‑specific and developmental regulation of nopaline synthase promoter in transgenic tobacco plants.  Plant Physiology 88: 547‑552.

Garab, G., Lajko, F., Mustardy, L., Marton, L.  1989.  Respiratory control of photosynthetic electron transport chain in plants.  Planta 179: 349‑358.

Marton, L, and Browse, F.  1991.  Facile transformation of Arabidopsis.  Plant Cell Reports.  10: 235-239.

Czako, M., Jang. J-C. Herr, J.M., Marton,L.  1992. Differential manifestation of seed mortality induced by seed-specific expression of the diphtheria toxin chain “A” gene in Arabidopsis and tobacco.  Mol. Gen. Genet.  235:  33-40.

Czako, M., Wilson, J., Yu, X., Marton, L.  1993.  Sustained root culture for generation and vegetative propagation of transgenic Arabidopsis thaliana.  Plant Cell Report, 12: 603‑606.

Czako, M., Marton, L.  1994.  The Herpes Simplex Virus thymidine kinase gene as a conditional negative selection marker gene in Arabidopsis.  Plant Physiology, 104. 1067-1071.

Marton, L., Hrouda M, Pecsvaradi A, Czako M.(1994) T-DNA insert independent mutations induced in transformed plant cells during Agrobacterium cocultivation.  Journal of Cell and Transgenic Research, 3: 317-325.

Czako, M., Wenck, A., Marton, L.  1995.  Negative selection markers in plant transformation.  Current  Topics in Plant      Molecular Biology.  IV.  Technology Transfer of Plant Biotechnology.  CRC.  (invited review)

Czakó M, Wenck A, Márton L (1996) Negative selection markers for plants. In Technology Transfer of Plant Biotechnology  (P. Greshoff, ed). Current Topics in Plant Molecular Biology 4:67-94.

Song W, Koh S, Czakó M, Márton L, Drenkard E, Becker JM, Stacey G (1997) Antisense expression of the peptide transport gene AtPTR2-B delays flowering and arrests seed development in transgenic Arabidopsis plants. Plant Physiol. 114:927-935.

Wenck A, Czakó M, Kanevski I, Márton L (1997) Frequent collinear long transfer of DNA inclusive of the whole binary vector during Agrobacterium-mediated transformation. Plant Molec Biol. 34:913-922

Yu X, Sukumaran S, Márton L (1998) Differential expression of the Arabidopsis Nia1 and Nia2 genes:

Cytokinin induced nitrate reductase activity is correlated with increased Nia1 transcription and mRNA l levels. Plant Physiol 116:1091-1096

Czakó M, Márton L (2001) Accumulation of a heartwood pigment in cell cultures of  Dalbergia. Phytochemistry 57: 1013-  1022

He Y, Sun J, Feng X, Czakó M, Márton L (2001) Differential mercury volatilization by tobacco organs expressing a   modified bacterial merA gene. Cell Research, 11(3): 231-236

Lovell CR, Bagwell CE, Czakó M, Márton L, Piceno YM, Ringelberg DB (2001) Stability of a Rhizosphere Microbial Community Exposed to Natural and Manipulated Environmental Variability. FEMB Microbiology Ecology, 38: 69-76.

Csiszar J, Szabo M, Erdei L, Marton L, Horvath F, Tari I (2004) Auxin autotrophic tobacco callus tissues resist oxidative stress: the importance of glutathione S-transferase and glutathione peroxidase activities in auxin heterotrophic and autotrophic calli. Journal of Plant Physiology 161: 691-699

Czakó M, Feng X, He Y, Liang D, Márton L (2005) Genetic Modification of Wetland Grasses for Phytoremediation. Z. Naturforsch. 60c: 285-291.

Czakó, M., Feng, X, He, Y., Gollapudi, S., Marton (2006) In vitro propagation of wetland monocots for

phytoremediation. in Focus on Biotechnology Vol. 9A: Phytoremediation / Rhizoremediation (M. Macková, D. Dowling, and T. Macek, Editors) Springer ISBN 1-4020-4952-8: Berlin and New York

Czakó M, Feng X, He Y, Liang D, Márton L (2006) Genetic modification of wetland grasses for phytoremediation. Environmental Geochemistry and Health 28(1): 103-110

Bittsanszky, A., Gyulai, G., Malone, R.P., Gullner, G., Kiss, J., Czako, M., Marton, L.,  Heszky, L., Komives, T. (2007) Triggering of a Plant Molecular Defense Mechanism: Increase in Gene Expression Levels of Transgene gshI and Poplar Gene gsh1 (Populus × canescens) by Response to the DNA Demethylating Drug DHAC – an qRT-PCR Analysis. Acta Phytopathologica et Entomologica Hungarica 42 (2): 235–243

Simon, L., B. Kovács, Márton, L. (2008). Olasznád (Arundo donax L.) nehézfém fitoextrakciójának vizsgálata. Talajvédelem 2008(special issue): 311-320.

Marton, L., Czako, M.  Fari, M (2009) Challenges to Large Scale Liquid Plant Micropropagation – the Arundo Story. In Vitro Cellular & Developmental Biology –  45 (Supplement): S26-S26

Williams, C.M.J.; Biswas, T.K.; Black, I.D.; Marton, L.; Czako, M.; Harris, P.L.; Pollock, Robert; Heading, Stephen; Virtue, J.G. (2009). Use of poor quality water to produce high biomass yields of giant reed (Arundo donax) on marginal lands for biofuel or pulp/paper. Acta Horticulturae 806: 595-602.

Czako, M Marton,L. (2011) Subtropican and tropical reads for biomass In: Energy Crops Energy and Environment RSC 3. 322-340.

Balogh, E., Herr Jr., J.M, Czako, M. and L. Marton (2012). “Defective Development of Male and Female Gametophytes in Arundo donax L. (Poaceae).” Biomass & Bioenergy: 30: 1-5.

Balogh, E., Herr Jr., J.M, Czako, M. and L. Marton (2012). “Defective Development of Male and Female Gametophytes in Arundo donax L. (Poaceae).” Biomass & Bioenergy: 30: 1-5.

Domokos-Szabolcsy, E, Marton, L, et al. (2012) Accumulation of red elemental selenium nanoparticles and their biological effects in Nicotiana tabacum. Plant Growth Regulation, online DOI 10.1007/s10725-012-9735-x

Bittsánszky A, Gyulai G, Czakó M, Gullner G, Márton L, Pilinszky K, Király K, Kőmíves T (2012)  Transfer of the maize ZmgstF4 gene to Arabidosis thaliana. Green Biotechnology (ed. Dudits D), available from http://www.zoldbiotech.hu/cikk/53-A-kukorica-ZmgstF4-genjenek-atvitele-ludf-be-Arabidopsis-thaliana

Williams, C., Biswas, T., Marton, L., & Czako, M. (2013). Arundo donax. In B. Singh (Ed.), Biofuel Crops: Production, Physiology and Genetics (ISBN 9781845938857) (pp. 249-270). Wallingford, UK: CABI.

Alshaal, T., Domokos-Szabolcsy, E., Marton, L., Czako, M., Katai, J., Balogh, P., et al. (2013). Phytoremediation of bauxite-derived red mud by giant reed. Environmental Chemistry Letters, 11(3), 295-302. doi: 10.1007/s10311-013-0406-6

Alshaal, T., Domokos-Szabolcsy, É., Márton, L., Czakó, M., Kátai, J., Balogh, P., et al. (2013). Restoring Soil Ecosystems and Biomass Production of Arundo donax L. under Microbial Communities-Depleted Soil. BioEnergy Research, doi: 10.1007/s12155-12013-19369-12155.

Elhawat, N., T. Alshaal, É. Domokos-Szabolcsy, H. El-Ramady, L. Márton, M. Czakó, J. Kátai, P. Balogh, A. Sztrik, M. Molnár, J. Popp, M. G. Fári (2014) Phytoaccumulation potentials of two biotechnologically propagated ecotypes of Arundo donax in copper-contaminated synthetic wastewater. Environmental Science and Pollution Research doi: 10.1007%2Fs11356-014-2736-8

Domokos-Szabolcsy, E., Alla, N. A., Alshaal, T., Sztrik, A., Márton, L., & El-Ramady, H. (2014). In vitro comparative study of two Arundo donax L. ecotypes’ selenium tolerance. International Journal of Horticultural Science, 20(3-4), 119-122.

Alshaal, T., Elhawat, N., Domokos-Szabolcsy, É., Kátai, J., Márton, L., Czakó, M., et al. (2014). Giant Reed: (Arundo donax L.): A Green Technology for a Clean Environment T. Alshaal, N. Elhawat, É. Domokos-Szabolcsy, J. , L. Márton, M. Czakó, H. El-Ramady, M. Fári. In A. A. Ansari, S. S. Gill, R. Gill, G. R. Lanza & L. Newman (Eds.), Phytoremediation: Management of Environmental Contaminants, Volume 1 (pp. 8-36). New York: Springer.

Elhawat, N., Domokos-Szabolcsy, É., El-Ramady, H., Antal, G., Márton, L., Czako, M., et al. (2014). Can copper-contaminated soils be used for biomass production during the phytoremediation process? Environmental Science and Pollution Research, submitted.

Gyulai G, A Bittsánszky, RP Malone, G Gullner, A York, M Czakó, B Kerti, M Humphreys, Z Szabó, L Márton, Z Tóth, L Helyes, T Kömíves, H Rennenberg (2015) DNA Demethylation-Induced Gene Reactivation in GM Poplar. Hung Agric Res (in press).

Elhawat, N., T. Alshaal, É. Domokos-Szabolcsy, H. El-Ramady, A. Gabriella, L. Márton, M. Czakó, P. Balogh and M. Fári (2015). “Copper Uptake Efficiency and Its Distribution Within Bioenergy Grass Giant Reed” Bulletin of Environmental Contamination and Toxicology: DOI 10.1007/s00128-00015-01622-00125

Bittsánszky A, G Gyulai, RP Malone, I Bock, LY Murenets, M Czakó, L Márton,  T Kőmíves, H Rennenberg (2015) Barcoding of transgenes in GM poplar. Chapter 17. In: Ajmal MA, G Gyulai, Fahad Al-Hemaid (Eds.) Plant DNA Barcoding and Phylogenetics. Lambert.

 

SZABADALMAK

US Patents and Applications: No 5,939,541, 6,087,547, 6,821,782, 7,303,916, 7,863,046, 8,030,073, Hungarian Patent Application P 05 00786, European Patent No. EP2150100, Australian Patent No. 2007352625, Malaysian Patent No. PI 20094650, Brazilian Patent Application No. PI 07216491

 

 

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